What is the capacitance reactance of a `5mu F` capacitor when it is part of a circuit whose frequency is (i) 50 Hz (ii) `10^(6)` Hz ?

Calculate energy of one mole of photons of radiation whose frequency is 5xx10^(14) Hz.

Calculate the energy of one mole of photons of radiations whose frequency is 3 xx 10^(12) Hz

A 15.0 muF capacitor is connected to a 220 V, 50 Hz source. Find the capacitive reactance and the current (rms and peak) in the circuit. If the frequency is doubled, what happens to the capacitive reactance and the current ?

When a certain metal was irradiated with light of frequency 3.2 xx 10^(16) Hz, the photoelectrons emitted had twice the kinetic energy as did photoelectrons when the same metal was irradiated with light of frequency 2.0 xx 10^(16) Hz . The threshold frequency for the metal is

A pure inductor of 25.0 mH is connected to a source of 220 V. Find the inductive reactance and rms current in the circuit if the frequency of the source is 50 Hz.

A pure inductor of 25.0 mH is connected to a source of 220 V. Find the inductive reactance and rms current in the circuit if the frequency of the source is 50 Hz.

In a series LCR circuit R = 200 Omega and the voltage and the frequency of the mains supply is 200 V and 50 Hz respectively. On taking out the capacitance from the circuit out the capacitance from the circuit the current lags behind the voltage by 45^(@) . On taking out the inductor from the circuit the current leads the voltage by 45^(@) . Calculate the power dissipated in the LCR circuit.

A light of frequency 1.6xx10^(16) Hz when falls on a metal plate emits electrons that have double the kinetic energy compared to the kinetic energy of emitted electrons when frequency of 1.0xx10^(16) Hz falls on the same plate. The threshold frequency (lamda_(0)) of the metal in Hz is

An AC circuit contains a resistance R, an inductance L and a capacitance C connected in series across an alternator of constant voltage and variable frequency. At resonant frequency, it is found that the inductive reactance, the capacitive reactance and the resistance are equal and the current in the circuit is i_(0) . Find the current in the circuit at a frequency twice that of the resonant frequency.